New ZPE Breakthru - Magnetic Resonance Amplifier

by Joel McClain and Norman Wootan

***** Please NOTE!!*****

This is a preliminary report that will be followed by updates with more detail.Future versions will include various measurements of the components used in the ciruit that is currently running.From all appearances at this date, the circuit components will simply give varying outputs and do not appear to be all that critical.

It was felt that this information should be released to the public as rapidly as possible, rather than risk loss of the information or the demo by 'circumstances' beyond our control.There have been too many discoveries which have disappeared by not being openly shared.We would rather risk being 'flamed' by other experimenters who actually BUILD THE CIRCUIT than take the chance of the information being lost by keeping it within a select group.

Our two primary fears are that someone will attempt to patent what is intended to be a gift to humanity, possibly with an intent to profit from others work or to lock it away, the other that it might be suppressed in some other fashion.

Therefore, the widest possible distribution is requested, and duplication attempted wherever possible.At the time of this correction to the original file, we have confirmation as to the numbers and others are working on the circuit on their own.Please take this information in the spirit of how it is given, as a gift to humanity.

The inventors are Joel McClain and Norman Wootan. You can contact them via KeelyNet or directly.

The circuit is being tested at various levels and attempts at duplication are under way.At this point, there is only one circuit.We will openly post other successful duplications or failures.Please feel free to try it yourself.The cost is minimal.

One other point, the crystal transducer was thought to be barium titanate and there is reason to believe it is in fact titanium zirconate.These are disc shaped, about 3" in diamter with a 1" diameter hole in the center.The disc is about 3/8" thick and is coated with silver on both sides.Thank you for your open- mindedness.They are advertised in the back of many electronics magazines for about $5 each.We have access to a small stock and might offer them for experiments should people ask for them.

Good luck and SEIZE THE DAY!

The Magnetic Resonance Amplifier (MRA)

Discovered and proven December 12, 1994 and shared with the world on December 13, 1994

by Joel McClain and Norman Wootan

MRA is the Magnetic Resonance Amplifier. With low level ultrasonic input signals, the MRA produces usable direct current power at levels above unity. This circuit is based upon the work and theories of John Ernst Worrell Keely, and is offered into the public domain in his memory.

Without lengthy discussion about the ether, tetrahedral geometric virtual rotation, mass aggregate resonance or the rule of nines, it is possible to understand this circuit as basically a tuned magnetic and quartz amplifier.

However, it WAS necessary to study those subjects in order to design and build the MRA, so if you want to fully realize how it works, avail yourself of the files on KeelyNet which contain all of that and much, much more.

In the schematic, MRA.GIF, there is a tunable low power oscillator, which supplies a signal to one side of a barium titanite transducer.The opposite side of the transducer is connected to a primary coil, which is wrapped around a barium ferrite magnet core.The opposite end of the primary goes back to the oscillator.

A secondary is wrapped around the primary, and is connected to an ordinary bridge rectifier, and the output of the bridge is applied to a DC load.A filter capacitor can be used on the output of the bridge, and was used on the MRA which we built.Additionally, a load resistor across the capacitor will keep the output DC from getting too high as the circuit is tuned.We found that a 30 ohm, 10 watt resistor was sufficient.

Once this has been assembled, put a voltmeter across the output resistor to monitor the voltage rise as the circuit is tuned.Adjust the oscillator frequency to provide the highest DC output.During this process, be aware that the voltages across the piezo and the coil will be VERY MUCH HIGHER than the signal level which you are applying.We have seen combined voltages of almost 1000VAC with only 30VAC of signal input.

When the circuit is tuned, the magnet will be "singing" at around 8000 to 11000Hz.If the piezo sings, you are exceeding its power capabilities, and will need to reduce the number of turns on your primary.The frequency that resonates both the piezo and the magnet at optimum resonance will be three times (three octaves above) the frequency at which the magnet is singing. This is the nine harmonics that are mentioned in the Rule of Nines.

To test the circuit, place a precision, high wattage, low ohm resistor in series with the output from the oscillator to the piezo, and measure the voltage drop.It should be very small, less than 0.1VAC.Use this value to determine current in the series circuit, and then calculate power.

Next, measure the DC voltage across your output load resistor, and once again calculate power.You should be between three to four times above the previously calculated input power.

Once the circuit is in operation, you will note that the voltage will vary by 0.1VDC or more, depending upon the time of day.This is due to the nature of etheric forces inherent to the earth's magnetic field.Watch for peak voltage at or before sunrise.

In our circuit, we measured 0.084VAC drop across a two ohm series resistor, for a total of 0.685W dissipation in the primary.With this, we attained 2.75W of output power, and used this to drive a lamp and a motor.Increasing the signal voltage had the effect of decreasing the primary current while boosting output power, thus improving the power gain ratio.We believe that larger power systems can be built by using larger coils, more piezos, and a lower frequency, as long as the aggregate combination is within the resonant frequency range of the components.

The MRA is essentially a means of releasing the electrical energy stored in magnets.As such, it is an AC battery with DC output.It can be used for a portable, self-charging power supply with a solid state oscillator and rechargable battery.For those who want a synopsis of the technology, the following paragraphs are offered, but it is strongly suggested that you follow up this reading with a more thorough study of the KeelyNet files.

Matter = energy.To change the matter, change the energy.Creating of a magnet achieved by a process which causes the matter to be both expanded and compressed at the same time, with the result that a magnet is in a constant state of collapse.This is why magnets attract material with similar lattice structures, as they attempt to fill the energy void which created them.The "domains" of the magnet are fixed after the process of magnetization, and the only way to extract electrical energy is to physically spin a coil relative to a magnet.

However, it is also possible to induce virtual rotation by applying the resonant frequency of the magnet, which causes the lattices and the domains to vibrate.However, the power required to do this is greater than the energy released by the virtual rotation.Therefore, it is necessary to increase the vibration without using excessive current.

The piezo has a virtually inexhaustable supply of free electrons, and it releases them when it is stressed.Using the piezo in series with the primary coil will almost eliminate primary current, because it is voltage which stresses the piezo, not current.Therefore, the piezo can be stressed with very little actual power, and provide the current to the primary coil, which vibrates the domains of the magnet.

The piezo is the catalyst for the circulating current with the primary coil. The circulating current is additive, and this is the reason for the high potentials developed across both the piezo and the primary coil.

It is at this point that resonance becomes important.You MUST have three octaves of separation between the magnet resonant frequency and the signal applied to the piezo.The circulating current is rich in harmonics, and this is necessary for the operation of the circuit.

Although the circuit is simple, it utilizes the concepts of PHI, of virtual rotation, of tetrahedral geometry, piezo and transformer theory, and electrical knowledge.It is not suggested as a beginner project as a result of the high voltages present.For engineers and technicians of experience, it may be difficult to accept that the MRA is above unity.The ramifications are emormous.Hopefully, it will help to build a better world.

Vangard Note

This device incorporates power multiplication principles using multiple resonances as claimed by Keely and Hendershott.It also corresponds in some ways with Floyd Sweet's VTA and Joe Parr's energy spheres from pyramids.

Joel called Sunday night in an excited state.He and Norman took turns explaining what they had achieved using this circuit.The power input measurements were about 600mWatts and yet the circuit was generating about 2.5 Watts on the output.Norman hooked up a DC motor and he said it was spinning like crazy in addition to a light bulb glowing brightly.

Norman was laughing and said they'd beat Harold Puthoffs' One Watt Challenge as issued at the 1994 ISNE conference in Denver.This has created quite a bit of excitement and Puthoff now has a FAX'd copy of the circuit.No doubt it will be everywhere in a very short time.The hope by Joel and Norman is that others will duplicate the initial effect and be able to expand on it to derive useful power.

Sweet claimed something on the order of 1:3,000,000 over-unity.The input power to his device was 10 VAC at 29uamps (290mWatts).The output had been loaded to as high as 3,000 Watts.

The initial MRA circuit is something on the order of 1:5 and is believed to be scalable.Joel says the coil he had wound around the barium ferrite magnet was not in the least precision and he is of the mind that a huge coil surrounding the magnet will produce a proportional increase in power.

Early talks with various KeelyNetters about the Sweet circuit led many of us to believe that Barium, when excited, rings for a long time when the exciter is removed.At the ISNE conference, Don Watson confirmed this with his analogy of glowing luciferase as found in fireflys or other phosphorescent materials.A weak stimulation continues to produce light for a time after the stimulation is removed.

So, here is a wonderful opportunity to build a pioneering device.If you have questions or suggestions, you may direct them to Joel McClain or Norman Wootan at KeelyNet.

I think they both need to be commended for their willingness to share what many would keep proprietary or die with the secret.